How Exercise Helps Maintain Healthy Vitamin D Levels in the Wintertime
Locked away, concealed from view, a hidden resource sits unused - while your body quietly pays the price. The signals are there - fatigue, unrest, and a gnawing sense of decline.
STORY AT-A-GLANCE
During winter in northern climates, sunlight is too weak to trigger vitamin D production, leaving many people — especially those with excess body fat — at risk for deficiency
A 10-week study found that exercise alone, without supplements or weight loss, helped maintain levels of active vitamin D in overweight or obese adults
Physical activity altered enzyme activity in fat tissue, boosting the body’s ability to convert stored vitamin D into its usable form and preventing it from being broken down
People with the most fat tissue saw the biggest improvements in vitamin D activation, showing that exercise is especially important if you're carrying extra weight
Exercise trains your body to activate and protect the vitamin D it already has, offering a natural way to help maintain vitamin D levels through winter when sun exposure is limited
Your body needs direct sunlight, specifically ultraviolet B rays, to produce vitamin D, but during the winter in northern climates, that sunlight often isn't strong enough to trigger production. If you live in one of these regions, you may go months without making any vitamin D naturally. And if you also carry extra weight, your risk of deficiency climbs even higher.
Vitamin D isn't just for bones. It helps regulate immune function, inflammation, insulin sensitivity and muscle health. The most active form drives these effects by binding to receptors in nearly every organ system in your body. Without enough of it, you increase your risk for fatigue, poor blood sugar control, depression, chronic pain and reduced resilience to infection.
Vitamin D deficiency affects about 1 billion people worldwide.1 Those with higher body fat are particularly at risk, since vitamin D gets locked away in fat tissue and becomes harder to access. Here's what makes this issue even more urgent: Most people with overweight or obesity show some degree of vitamin D dysfunction year-round, which gets worse in the winter.
A randomized controlled trial offers a solution — one that doesn't require supplements or weight loss.2 Let's explore how exercise, even without shedding pounds, changes the way your body handles vitamin D and helps keep your active levels stable through the darkest time of year.
Exercise Helps Convert Stored Vitamin D Into Its Most Active Form
In the study, published in Advanced Science, researchers set out to answer an important question: Does regular exercise during the winter months preserve vitamin D metabolism in people with overweight or obesity — even without supplements or sun exposure?3 The team ran a 10-week trial to measure the effect of physical activity on various forms of vitamin D in the body.
Participants were inactive adults with overweight or obesity — The study included adults who were largely sedentary and had a body mass index in the overweight or obese category. None of them were taking vitamin D supplements, and the study took place during winter — meaning there was virtually no sunlight capable of triggering vitamin D production in the skin. This allowed the researchers to isolate the effect of exercise alone.
Only the group that exercised preserved their active vitamin D levels — While both groups — those who exercised and those who stayed sedentary — experienced some decline in vitamin D, only the exercise group was able to maintain their levels of the active form that actually affects your health. This is the version that interacts with receptors throughout your body to control calcium balance, immune response and cellular repair.
Sedentary participants lost 15% of their active vitamin D — The people who didn't move saw a measurable drop in their active vitamin D levels over just 10 weeks. Meanwhile, those who followed a moderate-intensity indoor cycling and resistance training program were able to keep their levels steady, despite not losing any body fat during the study.
Even with no weight loss, exercise changed vitamin D status — One of the most surprising findings was that participants didn't need to lose fat in order to gain this benefit. This is significant, because obesity is known to trap vitamin D in fat cells and reduce its availability. Yet physical activity appeared to override that effect by improving the body's internal vitamin D regulation.
Exercise Influenced How Fat Tissue and Muscles Manage Vitamin D
The researchers discovered that physical activity increased the expression of vitamin D-related enzymes in fat tissue and muscle. These enzymes help turn stored vitamin D into its active form — the kind your body actually uses — and also help keep that active form from being broken down too fast. In other words, exercise didn't just slow vitamin D loss; it reprogrammed how the body processes and conserves it.
The biggest benefits were seen in those who had high fat tissue levels — Researchers found that individuals with the highest fat mass had the most to gain. Their fat tissue was less efficient at converting stored vitamin D to the active form at baseline, but after the intervention, that dynamic shifted. The more a person exercised, the better their conversion rates became, even though the fat tissue volume didn't decrease.
Two key enzymes controlled how vitamin D was used — Researchers looked at two important enzymes: one that turns vitamin D into its active, usable form, and another that breaks it down. In people who didn't exercise, the helpful enzyme went down while the one that destroys vitamin D went up. But in those who exercised, the body did the opposite — it boosted the enzyme that activates vitamin D and reduced the one that breaks it down.
Muscle tissue likely plays a supportive role in vitamin D balance — While the study focused on fat tissue, exercise is known to influence muscle metabolism as well. Although researchers didn't measure changes in muscle gene expression directly, the overall improvements in vitamin D activation suggest that better whole-body metabolic health, including muscle function, helps preserve vitamin D during winter.
Exercise reshapes how your body handles vitamin D — By changing the activity of specific enzymes in fat tissue, regular exercise helped participants maintain more of their active vitamin D, even without losing weight or taking supplements. This challenges the common belief that supplements or sun exposure are the only solutions, offering a new path for people with higher body fat to protect their vitamin D levels naturally during the winter.
How to Keep Your Vitamin D Levels Strong All Winter
If you're worried about your vitamin D levels dropping during the winter, especially if you carry extra weight, there's a proven way to fight back — and it doesn't involve taking pills or chasing sunshine. According to the study, the root of the problem isn't just low sun exposure or diet. It's how your body processes and activates the vitamin D that's already stored in your fat and muscle tissue. That's where exercise makes a real difference.
You don't need to lose weight or spend hours in the gym. What matters is doing the right kind of movement consistently. The study showed that even without any fat loss, people who exercised regularly were able to maintain their active vitamin D levels all winter long. Here's how to do the same:
Start moving daily — Aim for regular moderate-intensity exercise and daily movement. The study used indoor cycling and resistance training, but you could use brisk walking, bodyweight circuits or biking. The key is consistency. Your body needs repeated activation to keep converting stored vitamin D into the active form your cells use.
Combine moderate cardio with strength training — Don't choose one or the other. Cardio supports circulation and metabolic health, while strength training improves how your muscles handle vitamin D. Together, they reprogram your fat and muscle tissue to activate more vitamin D instead of letting it sit unused. Just don't overdo it. While too much high-intensity exercise often backfires, moderate exercise cannot be overdone.
Treat the darker months as a window to build your health from the inside out. Most people lose vitamin D between October and March, especially in northern regions. By staying active through this stretch, you prevent that seasonal drop and give yourself a head start on spring energy, immune strength and metabolic function.
Sunlight is the best option to optimize your vitamin D — Remember that your skin is designed to make vitamin D from the sun. So, during the summer months — and winter months if you live in a warm climate — spend time in direct sunlight with bare skin exposed daily.
If you're still using canola, soybean, sunflower or generic "vegetable oil," you're flooding your cells with linoleic acid (LA), a polyunsaturated fat that oxidizes easily, builds up in your skin and increases your risk of skin damage if you get sun exposure during peak hours (10 a.m. to 4 p.m.). Cut these oils from your diet for at least six months before getting peak sun exposure.
If you supplement, combine vitamin D3 with magnesium and K2 — If you're indoors often or live far from the equator, vitamin D3 supplementation is a reasonable strategy to keep your vitamin D levels optimized in the winter. But vitamin D3 works best when combined with magnesium and vitamin K2.
In fact, people not using these co-factors needed 244% more vitamin D just to maintain healthy blood levels.4 This trio works as a team, improving absorption, reducing arterial calcification and helping your liver process fat more efficiently.
Test your vitamin D levels and personalize your approach — Get your vitamin D levels tested at least twice a year and aim for a level between 60 and 80 ng/mL (150 to 200 nmol/L). This isn't just about bone health — it's about reducing insulin resistance, calming liver inflammation and restoring immune balance. Testing gives you a starting point and helps you keep track of your vitamin D levels year-round.
FAQs About Exercise and Vitamin D
Q: Why does vitamin D drop during the winter?
A: Your body relies on sunlight, specifically UVB rays, to make vitamin D through your skin. During the winter, especially in northern regions, sunlight isn't strong enough to trigger this process, leading to a sharp drop in vitamin D production.
Q: How does excess body fat affect vitamin D levels?
A: Vitamin D gets stored in fat cells, making it harder for your body to access and activate it. This leads to lower levels of the form your body actually uses, especially during winter.
Q: Does exercise improve vitamin D levels without supplements?
A: Yes. Research shows that consistent, moderate-intensity exercise helps your body convert stored vitamin D into its active form, even without weight loss or supplements.
Q: What kind of exercise is best for maintaining vitamin D?
A: A mix of moderate cardio and strength training four times a week worked best in the study. You don't need intense workouts — just regular movement to support your vitamin D metabolism.
Q: Should I still take vitamin D supplements?
A: If you live in a low-sunlight area or spend most of your time indoors, vitamin D3 supplements help, but they work best when combined with magnesium and vitamin K2 to support proper absorption and function. However, safe sunlight exposure is the best way to optimize your vitamin D levels.
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The best vitamin D is that obtained from the sun. Solar radiation produces anti-inflammatory, analgesic, and modulating effects. It stimulates cells and regulates the production of hormones and neurotransmitters. We absorb between 25-30% of solar photons through the skin.
The sun's rays produce two types of sulfur: cholesterol sulfate and vitamin D3 sulfate. Healthy cholesterol and sulfur levels also depend largely on vitamin D levels. Stephanie Seneff tells us that cholesterol and sulfur are oxidized after exposure to sunlight and transformed into vitamin D3.
Cholesterol sulfate deficiency can cause glucose intolerance, fat cells store more fat to fuel muscles, and excess fat accumulates, causing obesity and metabolic disorders that cause multiple pathologies, including cancer. Red blood cells produce cholesterol sulfate, and this molecule protects red blood cells from disintegration.
Growing evidence demonstrates that the immune system and skeletal muscle interact, modulating each other's function. In this context, vitamin D appears capable of integrating and converging certain biomolecular signaling toward protective anti-inflammatory effects. Therefore, vitamin D regulation appears to be even more critical at the intersection of signaling between the immune system and muscle, rather than at the individual tissue level, opening up new opportunities for clinical applications to improve health. This article focuses on the interaction between the immune system and skeletal muscle as a multifaceted target for vitamin D in health and disease, after reviewing the main regulatory roles of vitamin D in these systems separately.
Furthermore, vitamin D exhibits anti-inflammatory properties by inhibiting proinflammatory cytokines implicated in the pathophysiology of metabolic dysfunction (MASLD). Experimental evidence suggests that the immunomodulatory effects of vitamin D extend to the liver, reducing inflammation and oxidative stress, key factors in MASLD, and the likelihood of hepatocyte damage and fibrosis. Understanding the complex interplay between vitamin D and MASLD provides a basis for exploring targeted therapeutic strategies and preventive interventions. Given that vitamin D deficiency is a modifiable risk factor, addressing this nutritional concern may be beneficial in mitigating the burden of MASLD and associated metabolic disorders such as fatty liver disease.
https://www.mdpi.com/2076-3417/10/16/5592 (2020).--
https://www.mdpi.com/1422-0067/25/9/4901 (2024).-